Rapid and robust authentication of deer antler velvet product by fast PCR-RFLP analysis

IF 1.1 4区生物学 Q4 GENETICS & HEREDITY Mitochondrial Dna Part a Pub Date : 2018-02-17 DOI:10.1080/24701394.2016.1275599

Chao Jiang, Yan Jin, Xin Zhao, Yuan Yuan, Yuyang Zhao, Lu‐qi Huang

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引用次数: 11

Abstract

Abstract Deer antler velvet is widely used as a vitalizing, tonifying, haemopoietic and strengthening agent for debilitated persons in East Asia. To develop a rapid and sensitive method for the identification of the biological source or origin in antler velvet products, a molecular approach was applied using PCR-restriction fragment length polymorphism analysis. The cytochrome b gene sequences of nine cervidae species were analyzed, and a Dde I restriction endonuclease recognition site was found only in sika deer and red deer, the official origin of deer velvet in Chinese pharmacopoeia. A specific primer was designed, and rapid PCR amplified products were subjected to restriction digestion using a fast RFLP procedure. Sika deer and red deer showed two bands of 161 and 102 bp, in contrast to the undigested state of 263 from other antlers. The established PCR-RFLP method was applied in commercial velvet products, and a high frequency of substitution (50%) was revealed in collected commercial samples. The method was successful in detecting contaminated and adulterated antler products in Chinese patent drugs, and the whole detection process was accomplished within 1–1.5 h.

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采用快速PCR-RFLP分析方法对鹿茸产品进行快速、可靠的鉴定

摘要鹿茸在东亚地区被广泛用作健体补益、造血强身剂。为了建立一种快速、灵敏的鹿茸制品生物来源鉴定方法，采用聚合酶链反应-限制性片段长度多态性分析方法。对9种鹿科动物的细胞色素b基因序列进行了分析，发现Dde 1限制性内切酶识别位点仅在梅花鹿和马鹿(鹿茸的正式产地)中发现。设计了一种特异性引物，并使用快速RFLP程序对快速PCR扩增产物进行酶切。梅花鹿和马鹿有161和102 bp的条带，而其他鹿角的未消化条带为263 bp。将所建立的PCR-RFLP方法应用于商品丝绒制品中，所收集的商品样品具有较高的取代率(50%)。该方法可用于中成药中鹿茸制品的污染和掺假检测，整个检测过程在1 ~ 1.5 h内完成。

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来源期刊

Mitochondrial Dna Part a Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

3.00

自引率

0.00%

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期刊介绍： Mitochondrial DNA Part A publishes original high-quality manuscripts on physical, chemical, and biochemical aspects of mtDNA and proteins involved in mtDNA metabolism, and/or interactions. Manuscripts on cytosolic and extracellular mtDNA, and on dysfunction caused by alterations in mtDNA integrity as well as methodological papers detailing novel approaches for mtDNA manipulation in vitro and in vivo are welcome. Descriptive papers on DNA sequences from mitochondrial genomes, and also analytical papers in the areas of population genetics, phylogenetics and human evolution that use mitochondrial DNA as a source of evidence for studies will be considered for publication. The Journal also considers manuscripts that examine population genetic and systematic theory that specifically address the use of mitochondrial DNA sequences, as well as papers that discuss the utility of mitochondrial DNA information in medical studies and in human evolutionary biology.